DI-MU-METHOXOBIS(1,5-CYCLOOCTADIENE)DIIRIDIUM(I) CAS:12148-71-9

DI-MU-METHOXOBIS(1,5-CYCLOOCTADIENE)DIIRIDIUM(I) finds diverse applications in catalysis, contributing to various organic transformations and synthetic methodologies. One primary use is as a catalyst in C-C bond-forming reactions, such as cross-coupling and carbonylation reactions. These transformations enable the synthesis of complex organic molecules with diverse functionalities, important in pharmaceuticals, agrochemicals, and materials science. Moreover, the complex serves as a catalyst in hydrogenation reactions, facilitating the selective reduction of unsaturated compounds to form saturated products. This catalytic process is valuable in organic synthesis for the preparation of fine chemicals, intermediates, and pharmaceutical compounds. Furthermore, DI-MU-METHOXOBIS(1,5-CYCLOOCTADIENE)DIIRIDIUM(I) is employed in the activation of small molecules for catalytic purposes, including carbon dioxide and nitrogen. Its ability to activate these substrates under mild conditions enables their transformation into valuable products, contributing to the development of sustainable chemical processes and green technologies. Additionally, the complex is utilized in the catalytic functionalization of C-H bonds, enabling the direct conversion of inert C-H bonds into functional groups. This catalytic strategy offers a streamlined approach to organic synthesis, reducing the number of synthetic steps and minimizing waste generation. Moreover, DI-MU-METHOXOBIS(1,5-CYCLOOCTADIENE)DIIRIDIUM(I) serves as a precursor in the synthesis of other iridium complexes and organometallic species, providing access to a diverse array of catalytic systems with tunable properties. These complexes find applications in various catalytic transformations, including hydrogenation, hydroformylation, and carbon-carbon bond formation. In conclusion, DI-MU-METHOXOBIS(1,5-CYCLOOCTADIENE)DIIRIDIUM(I) exhibits versatile applications in catalysis, encompassing C-C bond formation, hydrogenation, small molecule activation, C-H functionalization, and the synthesis of other organometallic complexes. Its structural diversity and catalytic activity make it a valuable component in the toolkit of synthetic chemists seeking efficient and sustainable routes to complex molecules.